Fundamentals of gas-particle flow /

Fundamentals of Gas Particle Flow.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Rudinger, George
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; New York : Elsevier Scientific Pub. Co., �1980.
Colección:Handbook of powder technology ; v. 2.
Temas:
Two-phase flow.
Fluid mechanics.
Gases.
Particles.
Gas flow.
Gases
Gaz > �Ecoulement.
Particules (Mati�ere)
�Ecoulement diphasique.
M�ecanique des fluides.
Gaz.
gas (material)
SCIENCE > Mechanics > Fluids.
Gas flow
Fluid mechanics
Particles
Two-phase flow
Gas-Feststoff-Str�omung
Mec�anica dos flu�idos.
Part�iculas (f�isica nuclear)
Suspensions (chimie)
Fluides, M�ecanique des.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Fundamentals of Gas-Particle Flow; Copyright Page; Dedication; Preface; Table of Contents; List of symbols; Chapter 1. Introduction to two-phase flow; Chapter 2. Relaxation processes; 2.1. Viscous drag of single particles; 2.2. Drag in gas-particle flow; 2.3. Gas-particle heat transfer; 2.4. Equilibrium and frozen flow; Chapter 3. Dynamics of single particles; 3.1. Gravitational settling; 3.2. Particle in an arbitrary flow; 3.3. Particles as tracers in the nozzle of a chemical laser; 3.4. Particles injected across a constant flow; 3.5. Particles in a rotating gas
  • 3.6. Particles in a Prandtl-Meyer expansion3.7. Particles in an oscillating flow; Chapter 4. Thermodynamics of gas-particle mixtures; 4.1. Density and concentration; 4.2. Pressure and equation of state; 4.3. Internal energy, enthalpy, and ratio of specific heats; 4.4. Isentropic changes of state; 4.5. Speed of sound; Chapter 5. Steady flow through ducts; 5.1. Assumptions; 5.2. Basic equations; 5.3. Equilibrium nozzle flow; 5.4. Nonequilibrium flow through a nozzle with negligible particle volume; 5.5. Approximate methods; 5.6. Nonequilibrium flow through a nozzle with finite particle volume
  • 5.7. Isothermal nozzle flow5.8. Particle injection into a flow; Chapter 6. Pressure waves; 6.1. Types of pressure waves; 6.2. Shock waves; 6.3. Large-amplitude waves; 6.4. Sound waves; Chapter 7. Gas-particle jets; Chapter 8. Boundary layer; 8.1. Laminar boundary layer; 8.2. Drag reduction by particles in a turbulent flow; Chapter 9. Momentum transfer; Chapter 10. Experimental techniques; 10.1. Powder feeders; 10.2. Instrumentation; 10.3. Measurements of the particle drag coefficient in a shock tube; References; Author index; Subject index

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